Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of guanosine on insulin secretion, adenylyl and guanylyl cyclase activities of isolated rat islets of Langerhans was investigated. Guanosine (1-100 micron) inhibited glucose, tolbutamide, theophylline and prostaglandin E2-stimulated insulin secretion although it failed to affect glucagon stimulated secretion. Prostaglandin E2-stimulated adenylyl cyclase activity of islets was inhibited by guanosine although guanosine had no effect on basal, fluoride, glucagon or GTP-stimulated activity. Guanosine markedly decreased basal guanylyl cyclase activity of islets. These results suggest that guanosine may affect insulin release by inhibiting adenylyl and guanylyl cyclase activities in the beta-cell thereby decreasing the intracellular concentrations of cyclic nucleotides. This effect may be important in modulating the secretory response of the islets to a variety of hormonal agents.
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PMID:Effects of guanosine on insulin secretion and adenylyl and guanylyl cyclase activities of isolated rat islets of Langerhans. 1 8

The effects of glucagon on the adult mouse heart have been studied. Glucagon (1 mg/kg) increased heart rate in the adult mouse. This effect was enhanced in animals which had pretreated with reserpine to deplete catecholamines. No change in the cardiac cyclic AMP concentration after the injection of glucagon was seen in the hearts of reserpinized animals. Moreover, adenylyl cyclase activity, measured in two different laboratories in whole homogenates, 600 X g pellets or washed particles from adult mouse hearts, was not activated by glucagon. Finally, the injection of epinephrine (1.6 mg/kg), but not of glucagon (1.0 mg/kg), increased the per cent of cardiac phosphorylase a activity and depleted cardiac glucogen. Since increased levels of cyclic AMP are associated with an increase in the per cent of the cardiac phosphorylase a activity, these experiments provide evidence for the hypothesis that cyclic AMP is not essential for the rate effects of glucagon in the adult mouse.
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PMID:Evidence that cyclic AMP is not involved in the chronotropic action of glucagon in the adult mouse heart. 18 Dec 38

Prostaglandin E1, epinephrine, secretin, and glucagon are known inhibitors of gastric acid secretion, and each agent stimulated mucosal membrane (600 X g pellet) adenylyl cyclase activity from the corpus of the rat stomach. This adenylyl cyclase activity was also stimulated by 5'-guanylyl-imidodiphosphate and sodium fluoride but not by guanosine-5'-triphosphate. By contrast, the gastric acid secretagogues, pentagastrin, histamine, and carbachol, had no effect on basal or prostaglandin E1-stimulated mucosal adenylyl cyclase activity. Most of the sodium fluoride- and hormone-stimulated adenylyl cyclase of the corpus mucosa was contained in the 600 X g membrane fraction. The enzyme exhibited Michaelis-Menten kinetics with respect to the concentration of ATP, with an apparent Km of 0.25 mM. Histamine did not stimulate rat mucosal adenylyl cyclase activity under a variety of conditions, but did stimulate the same enzyme in guinea pig gastric fundic mucosa, an enzyme also activated by prostaglandin E1. These studies do not support the hypothesis that cyclic AMP mediates the actions of gastric acid secretagogues on the parietal cell in the rat.
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PMID:Rat gastric mucosal adenylyl cyclase. 18 24

The interrelationships of calcium and glucagon, and calcium and Isuprel were investigated in spontaneous and paced isolated guinea pig atria. Positive force responses with glucagon were in part both frequency and [Ca+2]o-dependent. Negative inotropic responses were observed with high concentrations of glucagon (5.0 microgram/ml) and calcium (10.0 mM). Persistence of a positive inotropic response of the atria to Isuprel (1.0 microgram/ml) and high [Ca+2]o (10 mM) was seen. Catecholamines stimulate c-AMP production in guinea pig atria while glucagon may not. The negative inotropism produced via calcium-glucagon interaction is consistent with the known inhibitory action of high calcium concentration on adenylyl cyclase and stimulation of phosphodiesterase. It is hypothesized that since glucagon does not activate c-AMP in this tissue then the combined action of high calcium and glucagon leads to degeneration of contractility; with Isuprel and high calcium, atrial contractility is maintained via Isuprel's c-AMP activation.
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PMID:Paradoxical effects of calcium-glucagon interaction on cardiac muscle contractility of isolated guinea pig atria. 20 43

Effects of glucagon and guanyl nucleotides on the rat liver plasma membrane adenylyl cyclase were studied. It was established that: 1) glucagon stimulates the fully guanyl-5'-yl imidodiphosphate (GMP-P(NH)P)-activated enzyme between 20 and 70%, provided a guanyl nucleotide is present in the assay; 2) glucagon has no effect on adenylyl cyclase activity in membranes activated fully by GMP-P(NH)P and then washed free of nucleotides. It is concluded that occupancy of the guanyl nucleotide binding site that activates the catalytic moiety of the system is not sufficient to promote hormone-receptor coupling to adenylyl cyclase and that occupancy of a second site by guanyl nucleotides is essential to effect stimulation of adenylyl cyclase by the glucagon-receptor complex. The data presented raise the question whether the guanyl nucleotide site that promotes coupling is distinct from the guanyl nucleotide site that modulates binding of glucagon to receptor and whether the occupancy of the guanyl nucleotide site associated with the catalytic moiety is necessary for coupling.
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PMID:Coupling of glucagon receptor to adenylyl cyclase. Requirement of a receptor-related guanyl nucleotide binding site for coupling of receptor to the enzyme. 21 87

In rat liver plasma membranes preactivated with guanosine 5'-[beta,gamma-imido[triphosphate (GuoPP[NH]P), GDP promoted coupling of occupied glucagon receptor to adenylyl cyclase [adenylate cyclase; ATP, pyrophosphate-lyase (cyclizing), EC 4.6.1.1] with an apparent association constant Ka of 0.1-0.15 microM. The apparent Ka for the same effect of GTP was 0.2 microM. The effect of GDP was shown not to be due to GTP formed by putative transphosphorylation reaction(s) when ATP was present in the assay as substrate. In membranes not preactivated with GuoPP[NH]P, GDP both competitively inhibited GuoPP[NH]P stimulation of adenylyl cyclase (Ki 0.10 microM) and supported stimulation of cyclizing activity (apparent Ka 0.10 microM) by glucagon. These effects of GDP occurred in the absence of added GTP and in the absence of sufficient formation of GTP by putative transphosphorylation reaction(s) to account for them. It is concluded that two levels of regulation of liver adenylyl cyclase (cyclizing) activity must exit. One level is termed "receptor regulation"; it depends on occupancy of a receptor-related R site by nucleotide and is specific for either GDP or GTP. The second level of regulation is termed "GTPase regulation"; it is inhibited by GDP, depends on both GTP and GTPase, and accounts for activation of cyclizing activity by nonhydrolyzable analogs of GTP. The data suggest that both levels of regulation coexist and may synergize, one mediating responses to stimuli external to the cell (receptor regulation) and the other mediating stimuli of intracellular origin (GTPase regulation).
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PMID:Coupling of the glucagon receptor to adenylyl cyclase by GDP: evidence for two levels of regulation of adenylyl cyclase. 22 58

The methylation of the single methionine residue of glucagon is accomplished at a pH of 3.5 in 8 M urea with methyl iodide. The reaction product is a soluble sulfonium derivative, S-methylglucagon, which can be isolated in a highly purified form. This derivative is characterized by amino acid analysis and its effect on the adenylyl cyclase system of rat liver plasma membranes. S-Methylglucagon does stimulate the adenylyl cyclase system; however, its activity is approximately 500 times less than that observed with the native hormone. The solubility of this derivative is great enough to allow for further modifications of the molecule which can be followed at a later stage by demethylation. Demethylation of S-methylglucagon regenerates the original covalent structure and is accomplished by treatment with Cleland's reagents at a pH of 10.5. The regenerated hormone is indistinguishable from native glucagon by its amino acid composition and its ability to stimulate the adenylyl cyclase system. The entire methylation-demethylation reaction sequence has been carried out with yields that approach 75%. The technique is suitable for the isotopic enrichment of native glucagon and may well be applicable to selected other methionine-containing peptides.
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PMID:Methylation of glucagon, characterization of the sulfonium derivative, and regeneration of the native covalent structure. 58 56

Insulin decreased markedly the adenylyl cyclase activity associated with fat cell membranes purified by centrifugation in sucrose gradients. The hormone effect was not readily evident in crude membrane preparations. The kinetics of this effect indicate that some time was required for the onset of the insulin-induced inactivation. This lag period decreased when the insulin concentration was increased. The hormone dose dependence for adenylyl cyclase inactivation measured at a fixed time (3 min) showed a 10 to 15% decrease in activity at 1 to 30 muU per ml insulin; 30 to 40% at 100 to 1000 muU per ml; and 75% at 0.1 U per ml. The insulin effect was completely abolished by 0.1 mM GMP-P(NH)P, 10mM fluoride, or 50 ng per ml glucagon, or by increasing the Mn++ concentration to 4 mM. In addition, it was partially reversed by the addition of a fraction from the sucrose gradient, which contained soluble factors. The kinetics of the adenyl cyclase-catalyzed reaction were studied using ATP or AMP-P(NH)P as adenylyl donor, and Mn++ or Mg++ as divalent cation, in the absence or presence of insulin. With ATP and Mg++ there was a striking reduction of the transient reaction rates after 1.5 min of incubation. Under these conditions the insulin effect was not evident. On the contrary, with ATP and Mn++ this spontaneous reduction of activity was less evident; however, in the presence of insulin there was a clear and marked reduction of the transient reaction rate measured after 1.5 min of incubation. With AMP-P(NH)P the kinetic data were qualitatively similar to those observed with ATP. It is concluded that under certain assay conditions adenylyl cyclase may be converted to an inactive enzyme form, and that such a conversion is more evident in the presence of Mg++ than with Mn++. In the latter case, insulin appears to enhance the rate of this conversion.
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PMID:Effects of insulin on the adenylyl cyclase activity of isolated fat cell membranes. 70 24

Heart cells from neonatal rats have been cultured. The ability of 10(-5)M glucagon to stimulate adenylyl cyclase activity, and to increase the cAMP concentration and the beating rate in these cells was followed as a function of time in culture. The cultured cells show no response to 10(-5)M glucagon until 5 weeks. By contrast, the cells do respond to 10(-5)M epinephrine with an increase in beat rate, adenylyl cyclase activity and cAMP levels when freshly prepared or after 1 week in culture. Previous studies on the newborn rat heart, acutely isolated, have also shown that the neonatal rat heart is insensitive to glucagon until 4-5 weeks after birth. We conclude that the cultured neonatal rat heart cells can also mature in the same time frame with respect to a glucagon response.
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PMID:Appearances of responses to glucagon in cultured neoatal rat heart cells. 83 88

The levels of beta 1- and beta 3-adrenoreceptor mRNAs in several rat tissues were determined simultaneously with a sensitive nuclease protection assay. The beta 1-receptor gene was expressed to varying degrees in most tissues examined. By contrast, high levels of beta 3-receptor mRNA were only found in brown and white adipose tissues, indicating that beta 3-receptor gene expression is essentially adipose tissue specific. Surgical sympathectomy of interscapular brown adipose tissue increased beta 3-receptor mRNA levels by 2.4-fold, but did not affect beta 1-receptor mRNA levels. Exposure of rats to 4 C, which increases sympathetic nerve stimulation of IBAT, reduced beta 3-receptor mRNA levels in intact tissue but did not affect the denervation-induced increase in beta 3-receptor mRNA. Acute treatment of rats with norepinephrine greatly reduced beta 3 mRNA levels in both white and brown adipose tissues, but did not alter beta 1-receptor mRNA levels. These results indicate that beta 1- and beta 3-receptor mRNAs are differentially regulated and that norepinephrine released from sympathetic nerves is an important inhibitory regulator of beta 3-receptor mRNA levels. Injections of the beta-receptor agonist isoproterenol and the beta 3-receptor agonist BRL 26830 each reduced beta 3-receptor mRNA in brown and white fat, whereas injections of glucagon reduced beta 3-receptor mRNA in brown fat only. These data indicate that while stimulation of beta 3-receptors is sufficient to down-regulate beta 3 mRNA, other receptors that stimulate adenylyl cyclase have the same effect. Finally, the agonist-induced down-regulation of beta 3-receptor mRNA was associated with a reduction in beta 3-receptor activation of adenylyl cyclase in white adipose tissue.
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PMID:Differential adrenergic regulation of beta 1- and beta 3-adrenoreceptor messenger ribonucleic acids in adipose tissues. 130 20


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